In most natural decision contexts, the process of selecting among competing actions takes place in the presence of informative, but potentially ambiguous, stimuli. Decisions about magnitudes—quantities like time, length, and brightness that are linearly ordered—constitute an important subclass of such decisions. It has long been known that perceptual judgments about such quantities obey Weber’s Law, wherein the just-noticeable difference in a magnitude is proportional to the magnitude itself. Current physiologically inspired models of numerical classification assume discriminations are made via a labeled line code of neurons selectively tuned for numerosity, a pattern observed in the firing rates of neurons in the ventral ...
<div><p>The “number sense” describes the intuitive ability to quantify without counting. Single neur...
The "number sense" describes the intuitive ability to quantify without counting. Single neuron recor...
We studied spike responses of V1 superficial layer neurons in a perceptual decision task. A rhesus m...
SummaryPrefrontal cortex (PFC) and posterior parietal cortex are key brain areas for magnitude repre...
As any child knows, the first step in counting is summing up individual elements, yet the brain mech...
AbstractFollowing a recent report that monkey prefrontal cortex contains cells that represent number...
Abstract Humans share with nonhuman animals a quantification system for representing the number of i...
Recent single-cell studies in monkeys (Romo et al., 2004) show that the activity of neurons in the v...
<p>Making decisions is fundamental to everything we do, yet it can be impaired in various disorders ...
AbstractWhether the neuronal encoding of number is linear or logarithmic divides cognitive neuroscie...
Humans and many animals can distinguish between stimuli that differ in numerosity, the number of obj...
Theoretical accounts of the visual number sense (VNS), i.e., an ability to discriminate approximate ...
Numerosity estimation is an evolutionarily ancient ability that is thought to be foundational to mat...
AbstractWhether cognitive representations are better conceived as language-based, symbolic represent...
AbstractNumber, like color or movement, is a basic property of the environment. Recently, single neu...
<div><p>The “number sense” describes the intuitive ability to quantify without counting. Single neur...
The "number sense" describes the intuitive ability to quantify without counting. Single neuron recor...
We studied spike responses of V1 superficial layer neurons in a perceptual decision task. A rhesus m...
SummaryPrefrontal cortex (PFC) and posterior parietal cortex are key brain areas for magnitude repre...
As any child knows, the first step in counting is summing up individual elements, yet the brain mech...
AbstractFollowing a recent report that monkey prefrontal cortex contains cells that represent number...
Abstract Humans share with nonhuman animals a quantification system for representing the number of i...
Recent single-cell studies in monkeys (Romo et al., 2004) show that the activity of neurons in the v...
<p>Making decisions is fundamental to everything we do, yet it can be impaired in various disorders ...
AbstractWhether the neuronal encoding of number is linear or logarithmic divides cognitive neuroscie...
Humans and many animals can distinguish between stimuli that differ in numerosity, the number of obj...
Theoretical accounts of the visual number sense (VNS), i.e., an ability to discriminate approximate ...
Numerosity estimation is an evolutionarily ancient ability that is thought to be foundational to mat...
AbstractWhether cognitive representations are better conceived as language-based, symbolic represent...
AbstractNumber, like color or movement, is a basic property of the environment. Recently, single neu...
<div><p>The “number sense” describes the intuitive ability to quantify without counting. Single neur...
The "number sense" describes the intuitive ability to quantify without counting. Single neuron recor...
We studied spike responses of V1 superficial layer neurons in a perceptual decision task. A rhesus m...